Color photography



2 Sheets-Sheet '1 B. c. HAsKlN COLOR PHOTOGRAPHY Filed April 28, 1942 lApril 17, 1945.

April 17, 1945. B. c. HAsKlN 2,374,014

COLOR PHOTOGRAPHY Filed April 28, 1242 2 sheets-sheet 2 It has heretofore been proposed 7a single nim, and the other by 'a bi-pack, suitproduced ...are

' claimed in co-pending "disclosed herein is A Patented apr.' 17, 194s UNITED sTA'res PATENT orticad 2,374,014 j l A coton rno'roeaarny hymn c. naskin.- Los Angeles. Warner Bros. Pictures, Inc., a corporation of Delaware Appiicaticn april es, 1942, serial No. 440,191

loi. 95-2) pending application serial Number 473,425, filed threading for color 2 Claims.

The invention relates to color photography and particularly to a three-color additive process for the photographic production of color separation negatives which may be employed to produce 'one or more positive prints having a transparent image of the object in natural colors.

subtractive process wherein a light beam is divided into two rays, one of which is kreceived by able lters being employed. The three films move through the camera one frame at a time, and each of them is exposed to provide color separation negatives. The three negatives thus A separately dyed colors complementary to the c olor of the light to which they were exposed, and the dyed images thus produced are transferred by imbihition to the positive iilm.

One object of the present invention is to avoid the necessity for three negatives, one for each o! the three colors, and to reduce this number to'two films, while nevertheless recording three colors. Y

This is accomplished by dividing the image t rays into two beams as heretofore, by impinging oneof these beams on a bi-pack having a filter between them, and by simultaneously subjecting one of the films in the bi-pack to the other beam. The. nim which is subjected to both beams is exposed in certain iilm areas in one'beam and to other nlm areas in another beam, whereby three color records are formed on two illms.

The invention makes it possible to transpose the color records thus formed into a positive print in natural color,without the use of imbibition. This is accomplished by printing a positive rllm from each of the three color sensation negatives, and by projecting light of the proper color and intensity through each of these negatives,

` the three lights in primary colors being combined into a single beam and employed to expose suitable positive stock such as Kodachrome. This allows more flexibility than is possible with imbibition, for the reason that if there is a discrepancy` in the exposure intensity or color separation in the course of producing the negatives, this can be compensated for by suitably adjusting the intensity and color of the light projected through the positive films in the projection printing operation.

The camera disclosed herein is described and application Serial Number 23, 1943, for Color pho- The camera threading arrangement described and claimed in' co- 4'13,426, filed January tography.

to employ 'a the iilm of Fig. 3, illustrating in'somewhat exag- 45, light from'the objective 6 is divided by the prism relation with the pulldown mechanisms il and.

raphy.

- of the shutter of Fig. 1.

Calif., assigner to New York, N. Y.,

January 23, 1943, forCamera photography. The printer and printing method disclosed herein is described and claimed in copending application, Serial Number 473,427, filed January 23, 1943, for Printing for color photog- For further details ofthe invention reference may be made tothe drawings wherein f J Fig. 1 is a schematic vertical sectional view of a camera embodying the method of the present invention. u

Fig. 2 is a vertical elevation, partly in section,

Fig. 3 is a plan view of a portionof one of the exposed negative nlms having one of` the color records thereon.

Fig, 4 is a longitudinal sectional view through gerated form the dye on the emulsion of the iilm of Fig. 3.

Fig. 5 is a plan view' of a portion of lthe other exposed negative film having two color records thereon in alternate frames.

Fig. 6 is-a longitudinal sectional view of the lm of Fig. 5.

Fig. 7 is a schematic vertical sectional view of a camera embodying a modification of the method of Fig. l.

Figs. and 9 schematically illustrate projection printers, for printing onto single coated or double coated stock, respectively.

Fig. 10 is avertical elevation, partly in section, and

Fig.' 11 II-II of Fig. 10, showing a modiiication of the shutter of Fig. 2.

Referring in detail to the drawings, the camera vI is provided with two exposure apertures 2 and 3 in the lm gates 2' and 3 arranged at right angles. In front of these gates is arranged a prism 4 having a partially .reiiecting surface 5.

The prism 4 receives light rays in natural color from an objective lens As is well-known, the

4, the direct beam passing to the aperture 2, and the reiected beam to the aperture 3. Between the'prism 4 and the apertures 2 and 3 is arranged a shutter 'l having a shaft 8 and suitable means not shown for rotating theshutter 1 in timed I0. The radial portion or body |I` of the shutter 1 is provided with an arcuate aperture I2 to admit light at certain times to the aperture 2. The shutter 1 is provided with a peripheral rim is an enlarged sectional iview on line I2, to admit the reflected beam to aperture 3 at the same time that the direct beam is admitted to aperture 2. l

In threading the camera I, preferably I employ a panchromatic nlm I suppliedfrom a suitable reel I Il, and an orthochromatic film I1 supplied from a suitable reel I5. The "ortho nlm I1 is highly sensitive to blue and it is employed to record the blue record in alternate frames thereof as indicated at i! in Fig. 2. Film I1 has an emulsion 2B, the face of which is impregnated with a` red dye as indicated at 2i in Fig. 3. Also, I preferably employ in the ilm gate 3' a green filter 22, with preferably no lter in the aperture 2. The films I5 and I'I are takenA from the reels Il and I8, respectively, and moved into bi-pack relation with their emulsions faceto.face as shown in Figs. 4 and 6 wherein the emulsion 23 of film I5 faces to the left, while emulsion of film I1 faces t0 thelright. The films I5 and II thus in bi-pack relation are threaded through the gate 2', the ortho filmv I1 after leaving this gate being fed through suitable sprocket means not shown, to a take-up reel 24.

yThe lm I5 after leaving gate 2 is turned away from nlm I1 as shown at 25 and looped over the side of both films I5 and I1 as shown at 26, so that the emulsion side of film I5 is at point 25 facing outwardly, the loop then being bent back on itself so that the emulsion side of film I5 faces film I1, with the portion 2'I of film I5 extending in the opposite direction to the direction it was tak'- lng on leaving the gate 2'. The film I5 with its emulsion facing outwardly is now threaded through the gate 3' and after leaving this gate it is driven by a suitable sprocket and taken up on a suitable spool 28. The loop 25, 25 in the lm I5 serves to position the film I5 rst laterally, and then on the opposite side of illm I1, so that the film I1 may be separated from the film I5 on leaving gate 2', while film I5 with its emulsion facing aperture 3 may be passed through gate 3'. The loop 25, 2 6 may be self-sustaining while the camera I is in operation, or guide rollers, not shown, may be provided.

The pull-down mechanisms 9 and I0 may be of any suitable type and they operate to simultaneously pull down the films I5 and i1 at aperture 2, and film I5 at aperture 3, two frames at a time, the films progressing counter-clockwise through the gates 2' and 3', while driven by sprockets not shown.

After exposure in the camera I, the film I'I in alternateframes thereof, has a blue sensation record as indicated at I9. All of the even numbered frames of film I5 may be exposed at one of the apertures 2 or 3, and the remaining frames are exposed at the other aperture. resulting in alternate red and green sensation records as indicated at 28, in Fig. 4.

In the modified camera and method shown in Fig. 7, arrangements are made for photographing the green record in the direct beam from the prism 4, while the red and blue recordsvare photographed in the reflected beam. Fig. 7 illustrates one of several ways which might be used to accomplish this. In Fig. '1, the pull-down mechanisms 50 and l5I, together with certain sprockets not shown, traversethe films in the 'opposite direction to that shown in Fig. l, namely in a clockwise direction, with the horizontal gate 52 employed as a bi-pack gate, and the vertical gate 53 75 employed as a gate for the film I5. After the blue and red records are formed on the bi-pack by the reflected beam at thel gate 4Il2, the films I5 and I1 are separated by loop 54, like loop 25, 25 of Fig. l, the film I1 passing to a take-up reel 55, while the film I5 traverses the gate 53 in order to receive the green record, and then to take-up reel 55. Otherwise, the construction and operationV of the method and apparatus of-Fig. 7 is substantially the same as that above described in connection with Fig. 1.

After the films I5 and I1 are developed, by means of a step printer the blue records on film I1 are printedl in succession on the successive frames of a positive film. The red records 2l appearing on alternate frames of film I5 are likewise printed on successive frames of another positive film, and similarly for the green records 30 which are printed on successive frames of a third positive film.

A release print is prepared as follows. The three positive lms after being developed, are schematically represented in section in Fig. 8 by the reference numbers 3i, 32, 33.* Behind each of these films isarranged a light source 34, 35, respectively, and between each such light source and its film is arranged a filter 31, 38, 39, respectively, the filters being of such a color that the light projected through its respective film is sub.. stantially thesame as the color of the light which exposed the corresponding negative. The colors recorded on the negative films I5 and I1 may be mutually exclusive or they may overlap as is wellknown. In any event, both the intensity and the color thus recorded in the camera may be compensated to some extent by suitably selecting the intensity of the lights 34 to 35, and by suitably selecting the colors of the lters 3l to 33. The

three-colored beams thus produced may be projected along parallel axes to a V shaped semitransparent mirror 43, where the three beams are cpmbined on a common axis 44 and employed to expose suitable positive stock indicated at 42, such as Kodachrome. The positive 42 which may be employed as a release print for operation in a standard motion picture projector thus bears, in natural colors, a transparent image of the object photographed.

The cameras ofFigs. l and '1 may have suitable register pins, not shown.

In the modified printer of Fig. 9, use may be made o f positive stock 45 havingemulsion on cpposite sides thereof in which case the printing lamp 46 foi-*one of the positives may be arranged on one side of the film 45 with the other two lamps 41, 48 on the other side, the lm 45 being.

suitably traversed with the positives so as to print each set of three-color records on the superposed frame portions of film 45. Otherwise the operation and arrangement is the same as described in connection with Fig. 8.

If desired, as shown in Figs. l0 and l1, I may employ a filter 51 in the aperture I2 of shutter 1 and this filter 51 may be employed to change the relationship of exposure'of the pan film I5 to the ortho I1. For example, if it is desired to have less exposure on the pan film I5, this filter 51 would be minus red in whatever degree it is desired to reduce the red register, whereas if it is desired to have less exposure on the ortho film I1, this filter would be minus blue in a degree necessary to reduce the exposure on the blue record. Or the filter 51 may be mounted in the ilm gate 2. By mounting it in the aperture I2 however, this iilter may extend only part of the length 'of aperture I2 as shown in ',Fig. 10, and its eiIectiveness can be varied by selecting the length of aperture I2 it will cover. Also, thefllter 22 may if desired, be mounted in the aperture I4 o! the shutter 1 as indicated by lter 58, to covera desired portion of the length of this aperture Il.

Filter 51 may be held in position overaperture l2 by means of clamping strips 6l secured to the invention without departingv from the. spirit l of the following claims.

Iclaim:. 1. The method oi' three-colorv photography vand back thereon. 2. The method according to claim 1 wherein said vcolor record on the front -iilm of said bi# iilm are red and green in alternate frames. 20 f which comprises dividing light rays into a direct beam and a reiiected beam, forming two-color records by impressing one of said-beams on front films in bi-pack relation, said bi`pack iilrns having their emulsions face to face, traversing said iii-pack two frames at a time, forming a loopv in the rear film of said bi-.pack to position its emulsion out, with saidrear film atthe front of and with the leading edge thereof extending in the opposite direction to the front iilm of said bi-pack. and l forming the impressing said other beam on the emulsion side of said leading edge in alternate frames but on he same track as the existing color record pack is blue, and the color records on said other BYRON C. HASKIN.

third color record: bf* 

